Integrated Technologies of Engineering

Major: Manufacturing Engineering
Code of subject: 7.131.03.O.002
Credits: 3.00
Lecturer: Novitskyi Iurii
Semester: 1 семестр
Mode of study: денна
Learning outcomes: 1. Model the process of layer-by-layer materialization of 3-D electronic image of products. 2. Modeling and integration of 3-D technological equipment and industrial robots for accelerated fabrication and prototyping of tools. 3. Calculate the time of the full cycle of manufacturing products by generative technologies at the macro level. 4. Carry out technical and economic analysis of alternatives to 3-D CAD modeling. 5. Develop and model design and engineering prototypes when creating layouts and products. 6. Verify prototypes and products. The study of the discipline involves the formation and development of students' competencies: 7. Ability to solve complex problems and practical problems of 3-D electronic image of products. 8. Ability to use the methods of basic sciences to solve general engineering and professional problems 9. Ability to apply knowledge in the field of informatics and modern technologies, use of software necessary for mastering the discipline 10. Ability to communicate to specialists and non-specialists information, ideas, problems, solutions and own experience in the field of integrated engineering technologies 11. Ability to manage complex actions or projects in modeling 3-D CAD systems. 12. Ability to effectively shape the communication strategy of 3-D CAD systems 13.Ability to further learn integrated engineering technologies with a high level of autonomy 14. Ability to use the knowledge of systems sciences necessary for mastering the discipline; 15. Ability to create programs for computer control of the movement of the working body, "tool", with which the theoretical model of the product is materialized in layers in accordance with the set of 2D models.
Required prior and related subjects: 1. Previous educational disciplines. Informatics and programming bases. Computer-aided designing bases. Metal-cutting instruments. Technological equipment. Technology of engineering. Computer-aided designing of metal-cutting instruments, equipment and technological processes. 2. Concomitant and next educational disciplines. Technologies of metal-cutting and assembly production. Scientific researches in technology of engineering.
Summary of the subject: The purpose of teaching the discipline "Integrated Engineering Technologies" is to provide students with knowledge using modern systems for modeling 3-D CAD and design of typical prototypes and products. Interesting facts about the history of 3D printers. Features and comparative characteristics of subtractive and additive technologies. The main tasks of additive technologies. Current problems of today and ways to overcome them with help additive technologies. Examples of application of additive technologies in various industries and spheres of human life. The main directions of development of additive technologies in Ukraine and abroad. Modern additive technologies in the production of models of parts. 3D printers. Prerequisites for the emergence of 3D printers. General definitions, terms and concepts. History of development, the essence of the process of 3D printing with different materials. Equipment and equipment for 3D printing. An overview of the latest achievements in the field of 3D printing in Ukraine and abroad. The role and contribution of Ukrainian scientists and scientists of NTU "KhPI" in the formation of additive technologies. Industrial 3D printers from different manufacturers, design features, specifications, advantages and disadvantages. Industrial 3D printers for construction of concrete made by CyBe Construction, WinSun, Vulcan. Concrete mixes for 3D printing of buildings, technical characteristics, features of production and application. Construction of buildings from environmentally friendly materials left - a project of WASP and their modular 3D-printer Crane WASP. Examples of the use of 3D printers for printing social housing for the poor. Problems and prospects for the development of additive technologies in the field of construction in Ukraine. Household 3D printers from foreign and domestic manufacturers, design features, technical characteristics, technologies used in them, advantages and disadvantages. Budget, semi-professional and professional household 3D printers manufactured by Addtech, Flashforge, XYZprinting, Wanhao, 9Formlabs, Anycubic, MakerBot, Ultimaker, etc. Factors that need to be taken into account when buying your own 3D household printer. Features of adjustment, operation and repair of the household 3D printer.
Assessment methods and criteria: Protection of laboratory works results. Is occurring an orally for computerized working places where processing tasks performed on every job. Examination on course completion. The written component is composed of three-level theoretical tasks. An oral component is made on the results of written components for thorough evaluation of knowledge. Current control (lab work) – 30 points; examination control – 70 points (written component – 60 points, oral component – 10 points): total – 100 points.
Recommended books: 1. Technology of mechanical engineering. Handbook for qualifying work. Yurchyshyn II, Lytvynyak YM, Hrytsai IE and others - Lviv, Lviv Polytechnic National University Publishing House, 2009, 528 p. 2. Manual "Integrated Generative Technologies" Compilers: AI Grabchenko, YN Vnukov, VL Dobroskok, L. I. Pupan, VA Fadeev. - Kharkiv, NTU “Kharkiv Polytechnic Institute”, 2011, 406 p. 3. Androschuk GO Additive technologies: prospects and problems 3D printing // Science, technology, innovation. - 2017. - № 1 (1). - P. 68-77. 4. Savchuk VI Scientific bases of assembly of machines / V.I. Savchuk, OV Ivchenko. - Sumy: Sumy State University, 2013. - 212 p. Auxiliary 5. Integrated technologies of accelerated prototyping and manufacturing [Text]: 2nd ed., Reworked. and ext. / LL Tovazhnyansky, AI Grabchenko, SI Chernyshov [etc.]; under. ed. LL Tovazhnyansky, AI Grabchenko. - Kharkiv: Model Universe OJSC, 2005. - 224 p. 6. Working processes of high technologies in mechanical engineering: Textbook / Grabchenko AI, Verezub MV, Vnukov Yu.M. etc. - Житомир: ЖДТУ, 2003.- 455 с.